In this work, a method has been developed to simulate fabric surface appearance from achieved yarn properties. The simulation of woven fabric surface appearance depends on yarn and fabric cross sectional geometry as well as on yarn measurements and yarn image recordings. A yarn winding device has been designed to take snapshots by digital video camera along the length of an actual yarn. The fabric simulations are confined to single fabrics of plain, matt, and twill weaves.
Adanur, S., and Vakalapudi, J.S. , Yarn and Fabric Design and Analysis System in 3D Virtual Reality, "Annual Report", National Textile Center, PA, November 2003.
2.
Chen, X., Knox, R.T., Mc Kenna, D.E., and Mather, R.R., Automatic Generation of Weaves for the CAM of 2D and 3D Woven Textile Structures, Part 1: Fibre Science and Textile Technology, J. Textile Inst. , 87(2), 356-370 (1996).
3.
Suh, M.W. , and Kim, J., Fabric Image Simulation by Wavelet Analysis of Yarn Profiles, in "Proceedings of the 9th EFS System Research Forum, Raleigh, NC, November 1996".
4.
Suh M. W. , and Kim, J., Creation of Virtual Fabrics by Wavelet Analysis of Spun Yarn Density Signals, in "Proceedings of the 10th EFS System Research Forum, Raleigh, NC, November 1997".
5.
Jasper, W., Suh, M.W., and Woo, J.L., Real Time Characterization and Data Compression Using Wavelets, "Annual Report", Textile Center, PA, November 2000.
6.
Suh, M.W. , Jasper, W., and Cherkassky , A., 3-D Electronic Imaging of Fabric Qualities by On-Line Yarn Data, "Annual Report", Textile Center, PA, November 2003.
7.
Moussa, A., Dupont, D., Steen D., and Zeng, X., Modeling and Simulation of Woven Structure Using Fourier Transform, in "Proceedings of the World Textile Conference-4th AUTEX Conference, Roubaix, June 2004".
8.
Adabala, N., Thalmann, N.M., and Fei, G., Real-time Visualization of Woven Textiles, J. Textile Inst. , 86(4), 635-648 (1995).
9.
Křemenáková, D., Sirkova, B.K., and Garg A., Computer Aided Textile Design, in "Proceedings of the 3rd Indo-Czech Textile Research Conference , Liberec, June 2004".
10.
Keefe, M., Solid Modeling Applied to Fibrous Assemblies, Part I: Twisted Yarns, J. Textile Inst., 85(3), 338-349 (1994).
11.
Keefe, M., Solid Modeling Applied to Fibrous Assemblies, Part II: Woven Structure, J. Textile Inst., 85(3), 350-358 (1994).
12.
Pascal, J., Giralt, J., and Brunet, P., An Interactive Package for the Computer-Aided Design of Woven Fabrics, Computers & Graphics, 10(4), 359-368 (2003).
13.
Ozdemir, H., and Başer, G. , Computer Simulation of Woven Structures Based on Actual Yarn Photographs, in "Proceedings of the 17th IMACS World Congress Scientific Computation, Applied Mathematics and Simulation, Paris, June 2005".
14.
Ozdemir, H., "Computer Simulation of the Manner in which Yarn Properties Affect Woven Fabric Appearance", Doctoral Thesis, Dokuz Eyliil University, Izmir, Turkey, 2005.
15.
Baser, G., "The Transverse Compression of Helices with Special Reference to the Compression of Yarns", Doctoral Thesis, The University of Leeds, Leeds, U.K., 1965.
16.
Hamilton, J.B. , A General System of Woven Fabric Geometry, J. Textile Inst., 55(1), T66 (1964 ).
17.
Peirce, F.T., The Geometry of Cloth Structure, J. Textile Inst., 28, T45 (1937).
18.
Ashenhurst, T.R., "A Treatise on Textile Calculations and the Structure of Fabrics", J. Broadbent and Co., London, 1884 .
19.
Jain, R., Kasturi, R., and Schunck, B.G., "Machine Vision", McGraw-Hill, New York, 1995, pp. 1-38.
20.
Pitas, I., "Digital Image Processing Algorithms", Prentice Hall, Englewood Cliffs, NJ, 1993, pp. 298-362.
21.
Balakrishna, I., Hepworth, K., and Snowden, D.C., The Inherent Skewness of the 2/2 Twill Weave, J. Textile Inst., 55(1), 99-110 (1964).
22.
Ozdemir H., and Başer, G. , Computer Simulation of Woven Fabric Defects Based on Faulty Yarn Photographs, in "Proceedings of the 21st International Symposium on Computer and Information Sciences-ISCIS'06 , Istanbul, November 2006, LNCS Vol. 4263, Springer, Berlin, 2006.
